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assignment_groups_mip.py
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assignment_groups_mip.py
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#!/usr/bin/env python3
# Copyright 2010-2024 Google LLC
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# [START program]
"""Solve assignment problem for given group of workers."""
# [START import]
from ortools.linear_solver import pywraplp
# [END import]
def main():
# Data
# [START data]
costs = [
[90, 76, 75, 70, 50, 74],
[35, 85, 55, 65, 48, 101],
[125, 95, 90, 105, 59, 120],
[45, 110, 95, 115, 104, 83],
[60, 105, 80, 75, 59, 62],
[45, 65, 110, 95, 47, 31],
[38, 51, 107, 41, 69, 99],
[47, 85, 57, 71, 92, 77],
[39, 63, 97, 49, 118, 56],
[47, 101, 71, 60, 88, 109],
[17, 39, 103, 64, 61, 92],
[101, 45, 83, 59, 92, 27],
]
num_workers = len(costs)
num_tasks = len(costs[0])
# [END data]
# Allowed groups of workers:
# [START allowed_groups]
group1 = [ # Subgroups of workers 0 - 3
[2, 3],
[1, 3],
[1, 2],
[0, 1],
[0, 2],
]
group2 = [ # Subgroups of workers 4 - 7
[6, 7],
[5, 7],
[5, 6],
[4, 5],
[4, 7],
]
group3 = [ # Subgroups of workers 8 - 11
[10, 11],
[9, 11],
[9, 10],
[8, 10],
[8, 11],
]
# [END allowed_groups]
# Solver.
# [START solver]
# Create the mip solver with the SCIP backend.
solver = pywraplp.Solver.CreateSolver("SCIP")
if not solver:
return
# [END solver]
# Variables
# [START variables]
# x[worker, task] is an array of 0-1 variables, which will be 1
# if the worker is assigned to the task.
x = {}
for worker in range(num_workers):
for task in range(num_tasks):
x[worker, task] = solver.BoolVar(f"x[{worker},{task}]")
# [END variables]
# Constraints
# [START constraints]
# The total size of the tasks each worker takes on is at most total_size_max.
for worker in range(num_workers):
solver.Add(solver.Sum([x[worker, task] for task in range(num_tasks)]) <= 1)
# Each task is assigned to exactly one worker.
for task in range(num_tasks):
solver.Add(solver.Sum([x[worker, task] for worker in range(num_workers)]) == 1)
# [END constraints]
# [START assignments]
# Create variables for each worker, indicating whether they work on some task.
work = {}
for worker in range(num_workers):
work[worker] = solver.BoolVar(f"work[{worker}]")
for worker in range(num_workers):
solver.Add(
work[worker] == solver.Sum([x[worker, task] for task in range(num_tasks)])
)
# Group1
constraint_g1 = solver.Constraint(1, 1)
for index, _ in enumerate(group1):
# a*b can be transformed into 0 <= a + b - 2*p <= 1 with p in [0,1]
# p is True if a AND b, False otherwise
constraint = solver.Constraint(0, 1)
constraint.SetCoefficient(work[group1[index][0]], 1)
constraint.SetCoefficient(work[group1[index][1]], 1)
p = solver.BoolVar(f"g1_p{index}")
constraint.SetCoefficient(p, -2)
constraint_g1.SetCoefficient(p, 1)
# Group2
constraint_g2 = solver.Constraint(1, 1)
for index, _ in enumerate(group2):
# a*b can be transformed into 0 <= a + b - 2*p <= 1 with p in [0,1]
# p is True if a AND b, False otherwise
constraint = solver.Constraint(0, 1)
constraint.SetCoefficient(work[group2[index][0]], 1)
constraint.SetCoefficient(work[group2[index][1]], 1)
p = solver.BoolVar(f"g2_p{index}")
constraint.SetCoefficient(p, -2)
constraint_g2.SetCoefficient(p, 1)
# Group3
constraint_g3 = solver.Constraint(1, 1)
for index, _ in enumerate(group3):
# a*b can be transformed into 0 <= a + b - 2*p <= 1 with p in [0,1]
# p is True if a AND b, False otherwise
constraint = solver.Constraint(0, 1)
constraint.SetCoefficient(work[group3[index][0]], 1)
constraint.SetCoefficient(work[group3[index][1]], 1)
p = solver.BoolVar(f"g3_p{index}")
constraint.SetCoefficient(p, -2)
constraint_g3.SetCoefficient(p, 1)
# [END assignments]
# Objective
# [START objective]
objective_terms = []
for worker in range(num_workers):
for task in range(num_tasks):
objective_terms.append(costs[worker][task] * x[worker, task])
solver.Minimize(solver.Sum(objective_terms))
# [END objective]
# Solve
# [START solve]
print(f"Solving with {solver.SolverVersion()}")
status = solver.Solve()
# [END solve]
# Print solution.
# [START print_solution]
if status == pywraplp.Solver.OPTIMAL or status == pywraplp.Solver.FEASIBLE:
print(f"Total cost = {solver.Objective().Value()}\n")
for worker in range(num_workers):
for task in range(num_tasks):
if x[worker, task].solution_value() > 0.5:
print(
f"Worker {worker} assigned to task {task}."
+ f" Cost: {costs[worker][task]}"
)
else:
print("No solution found.")
# [END print_solution]
if __name__ == "__main__":
main()
# [END program]